U.S. patent application number 11/498200 was filed with the patent office on 2007-02-08 for flat cable electrical connector.
This patent application is currently assigned to Hirose Electrical Co., Ltd.. Invention is credited to Yoshinori Takashita.
Application Number | 20070032115 11/498200 |
Document ID | / |
Family ID | 37622353 |
Filed Date | 2007-02-08 |
United States Patent
Application |
20070032115 |
Kind Code |
A1 |
Takashita; Yoshinori |
February 8, 2007 |
Flat cable electrical connector
Abstract
When the movable member (30) is at the open position, the cam
portion (33) of the movable member (30) is out of contact with the
pressure receiving portion of a lever arm (21), making it possible
to insert a flat cable into the connector on the contact side. When
the movable member (30) is at the closed position, the cam portion
(33) comes into contact with the pressure receiving portion that
consists of a shoulder (21D) and a concave indentation (21B). While
the movable member (30) is moving to the closed position, the cam
portion (33) pushes the shoulder (21D) to provide the pressure
receiving portion with the highest pressure. When the movable
member (30) reaches the closed position, the cam portion (33) rests
in the concave indentation (21B) while maintaining a pressure less
than the highest pressure.
Inventors: |
Takashita; Yoshinori;
(Tokyo, JP) |
Correspondence
Address: |
TAKEUCHI & KUBOTERA, LLP
SUITE 202
200 DAINGERFIELD ROAD
ALEXANDRIA
VA
22314
US
|
Assignee: |
Hirose Electrical Co., Ltd.
|
Family ID: |
37622353 |
Appl. No.: |
11/498200 |
Filed: |
August 3, 2006 |
Current U.S.
Class: |
439/260 |
Current CPC
Class: |
H01R 12/79 20130101;
H01R 12/88 20130101 |
Class at
Publication: |
439/260 |
International
Class: |
H01R 13/15 20060101
H01R013/15 |
Foreign Application Data
Date |
Code |
Application Number |
Aug 8, 2005 |
JP |
2005-229149 |
Claims
1. A flat cable electrical connector, comprising: a housing; a
plurality of terminals made of sheet metal and arranged in said
housing at predetermined intervals in a direction perpendicular to
said sheet metal; a movable member rotatable between an open
position and a closed position and having a cam portion, each of
said terminals including a lever arm extending in a second
direction in which a flat cable is inserted into said electrical
connector and having a fulcrum at a middle point thereof; said
lever arm having a pressure projection for pressing down said flat
cable at an end thereof and a pressure receiving portion at the
other end for receiving a pressure from said cam portion of said
movable member to flex in the same plane as that of said terminal,
thereby producing a pressure between said contact projection and
said flat cable; said cam portion having such a shape that it is
out of contact with said pressure receiving portion of said lever
arm when said movable member is at said open position, thereby
making it possible to insert said flat cable and in contact with
said pressure receiving portion when said movable member is at said
closed position; said pressure receiving portion having a shoulder
and a concave indentation continued from said shoulder so that when
said movable member moves to said closed position, said cam portion
provides said pressure receiving portion with a highest pressure
and when movable member reaches said closed position, said cam
portion rests in said concave indentation while maintaining a
pressure that is lower than said highest pressure.
2. The flat cable electrical connector according to claim 1,
wherein said cam portion has an elongated circular or elliptic
cross-section and said concave indentation has such a curved shape
as to fit to a shape of said cam portion.
3. The flat cable electrical connector according to claim 1,
wherein said terminal further comprises an attaching arm extending
in parallel with said lever arm and a linking section for
connecting said lever and attaching arms at their middle point
where said fulcrum is situated.
4. The flat cable electrical connector according to claim 3,
wherein said attaching arm has an attaching section to be attached
to said housing adjacent to said linking section.
5. The flat cable electrical connector according to claim 4,
wherein said housing has a bottom wall, an upper wall and an island
provided between said bottom and upper walls to form a space
between said bottom wall and said island into which said attaching
section is press fitted.
6. The flat cable electrical connector according to claim 3,
wherein said attaching arm has a contact projection at a position
corresponding to said pressure projection of said lever arm.
7. The flat cable electrical connector according to one of claim 3,
wherein said attaching arm has a connection section projecting from
said housing, such that when said connector is provided on a
circuit board, said connection section comes into contact with a
circuit trace of said circuit board.
8. The flat cable electrical connector according to claim 4,
wherein said attaching arm has a contact projection at a position
corresponding to said pressure projection of said lever arm.
9. The flat cable electrical connector according to one of claim 4,
wherein said attaching arm has a connection section projecting from
said housing, such that when said connector is provided on a
circuit board, said connection section comes into contact with a
circuit trace of said circuit board.
10. The flat cable electrical connector according to one of claim
6, wherein said attaching arm has a connection section projecting
from said housing, such that when said connector is provided on a
circuit board, said connection section comes into contact with a
circuit trace of said circuit board.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to electrical connectors for
flat cables.
[0003] 2. Description of the Related Art
[0004] Japanese Patent No. 3047862 discloses a connector of this
type. As shown in FIGS. 5(A) and 5(B), this connector includes a
plurality of terminals 51 arranged in the direction perpendicular
to the drawing sheet. The terminal 51 has upper and lower arms 52
and 53 which are connected by a linking section 54, forming a
substantially H-shape. The lower arm 53 is in contact with the
bottom wall 56 of a housing 55, with one of its ends 57 engaged
with the housing 55. The other end forms a connection section 58
outside the housing 55. The upper arm 52 is made flexible and has a
contact portion 52A at one end to cooperate with the contact
portion 53A of the lower arm 53 for holding a flat cable P between
them for contact. See FIG. 5(B). At the other end, it has a corner
portion 52B to receive a force from a movable member 59 when the
movable member 59 rotates from the position of FIG. 5(A) to the
position of FIG. 5(B). Consequently, the contact portion 52A is
pressed onto the flat cable P.
[0005] The movable member 59 has a corner portion 59A to serve as a
cam for the corner portion 52B. When the corner portion 59A moves
past the corner portion 52B, it makes a click sound and presses the
upper arm 52 to keep the contact pressure of the contact portion
52A.
[0006] There is a demand for a low-profile connector of this type.
Also, it is required to provide a sufficient click sound or
sensation to indicate that the movable member is brought to such a
position that a satisfactory contact pressure is provided between
the terminal and the flat cable.
[0007] However, the above connector fails to meet both the
requirements at the same time.
[0008] The degree of click sensation is large when the angle
between the two straight sections of the corner portion 52B is
large because the contact position with the movable member changes
quickly. However, if the angle is too large, no low-profile
connector is provided. Also, when the movable member 59 moves past
the corner portion 52B, the upward pressure is lowered too quickly
to provide satisfactory contact pressure between the contact
portion 52A and the flat cable. In other words, when the
satisfactory contact pressure is maintained, the angle of the
corner portion is too small to provide a satisfactory click
sensation.
SUMMARY OF THE INVENTION
[0009] Accordingly, it is an object of the present invention to
provide a low-profile flat cable electrical connector capable of
providing a satisfactory click sensation and maintaining a high
contact pressure between the terminal and the flat cable.
[0010] The invention relates to a flat cable electrical connector,
which includes a housing; a plurality of terminals made of sheet
metal and arranged in the housing at predetermined intervals in a
first direction perpendicular to the sheet metal; and a movable
member rotatable between an open position and a closed position and
having a cam portion. Each of the terminals includes a lever arm
extending in a second direction in which a flat cable is inserted
into the electrical connector and having a fulcrum at a middle
point thereof. The lever arm has a pressure projection for pressing
down the flat cable at an end thereof and a pressure receiving
portion at the other end for receiving a pressure from the cam
portion of the movable member to flex in the same plane as that of
said terminal, thereby producing a pressure between the contact
projection and the flat cable.
[0011] The cam portion has such a shape that it is out of contact
with the pressure receiving portion of the lever arm when the
movable member is at the open position, thereby making it possible
to insert the flat cable and in contact with the pressure receiving
portion when the movable member is at the closed position. The
pressure receiving portion has a shoulder and a concave indentation
continued from the shoulder so that when the movable member moves
to the closed position, the cam portion provides the pressure
receiving portion with a highest pressure and when the movable
member reaches the closed position, the cam portion rests in the
concave indentation while maintaining a pressure that is lower than
the highest pressure.
[0012] When the cam portion reaches the shoulder of the pressure
receiving portion, the lever arm receives the highest pressure from
the cam portion. A large degree of click sensation is provided at
the entry of the concave indentation due to the sharp slope of the
concave indentation. At the closed position of the moving member,
the cam portion abuts against the upward slope of the concave
indentation, maintaining a high pressure on the pressure receiving
portion.
[0013] The cam portion may have an elongated circular or elliptic
cross-section and the concave indentation may have such a curved
shape as to fit to a shape of said cam portion. The curved portion
of the elongated circular or ecliptic cam makes the contact
position with the pressure receiving portion move smoothly and the
concave curve of the concave indentation makes stable the final
position of the cam at the closed position.
[0014] The terminal further comprises an attaching arm extending in
parallel with said lever arm and a linking section for connecting
said lever and attaching arms at their middle point where said
fulcrum is situated. It is preferred that the attaching arm has an
attaching section to be attached to said housing adjacent to said
linking section.
[0015] When the movable member moves to the closed position, the
pressure receiving portion of the lever arm receives a force from
the cam portion of the movable member so that the linking section
receives a large bending moment which is secured by the attaching
section.
[0016] The housing has a bottom wall, an upper wall and an island
provided between said bottom and upper walls to form a space
between said bottom wall and said island into which said attaching
section is press fitted. Consequently, the attaching section is
secured without increasing the height of the connector. The island
may be provided near the linking section.
[0017] The attaching arm may have a contact projection at a
position corresponding to the pressure projection of the lever arm.
Also, it may have a connection section projecting from the housing,
such that when the connector is provided on a circuit board, the
connection section comes into contact with a circuit trace of the
circuit board.
[0018] As has been described above, according to the invention, the
sharp slop of the pressure receiving portion from the shoulder to
the front edge of the concave indentation produces a large degree
of click sensation. In addition, the movable member abuts against
the upward slope at the rear portion of the concave indentation and
rests at a stable position while maintaining a large degree of
pressure to the pressure receiving portion.
BRIEF DESCRIPTION OF THE DRAWINGS
[0019] FIG. 1 is a sectional view of an electrical connector
according to an embodiment of the invention, in which the movable
member is at the open position;
[0020] FIG. 2 is a sectional view of the electrical connector, in
which the movable member is moving from the open position to the
closed position;
[0021] FIG. 3 is a sectional view of the electrical connector, in
which the movable member is at the closed position;
[0022] FIG. 4 is a section view of an electrical connector
according to another embodiment of the invention;
[0023] FIG. 5(A) is a sectional view of a conventional connector,
in which the movable member is at the open position; and
[0024] FIG. 5(B) is a sectional view of the conventional connector,
in which the movable member is at the closed position.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0025] An embodiment of the invention will now be described with
reference to FIGS. 1-4.
[0026] In FIG. 1, a plurality of terminals are arranged at
predetermined intervals in the first direction perpendicular to the
drawing sheet. A housing 10 is made of a dielectric material so as
to provide a substantially rectangular form which has a plurality
of slits 11 between an upper wall 10A and a bottom wall 10B of the
housing 10 for receiving the terminals. The thickness of the slit
11 is substantially equal to the thickness of the terminal which is
inserted into the housing from right to left. The slits 11 are
arranged at predetermined intervals in the first direction and
extend laterally through the housing 10.
[0027] A cable receiving cavity 12 is provided in the left half of
the housing 10 so as to communicate with the slits 11. The height
of the cable receiving cavity 12 is slightly greater than the
thickness of a flat cable to be inserted. The cable receiving
cavity 12 has tapered opening 12A to facilitate the insertion of a
cable. An open section 13 is provided in the upper right side half
of the housing 10 so as to communicate with the slits 11 and
receive a movable member. An island 14 is provided in the slit 11
between the upper wall 10A and the bottom wall 10B to link opposite
inner walls of the slit 11.
[0028] The terminal 20, which is to be inserted into the housing
10, is made so as to maintain the flat surfaces of metal sheet. As
shown in FIG. 1, it has an upper lever arm 21 and a lower attaching
arm 22. Both the lever arm 21 and the attaching arm 22 extend
laterally in substantially parallel and are housed in the upper and
lower portions of the slit 11, respectively, and connected with a
linking section 23 at the middle position.
[0029] The lever arm 21 has a pressure projection 21A at the left
end and a curved indentation 21B on the right side lower edge. A
shoulder 21D is provided between the curved indentation 21B and a
straight edge 21C to form, together with the curved indentation
21B, a pressure receiving portion for receiving a pressure from a
cam portion. It is noted that there is a space between the upper
edge 21E of the lever arm 21 and the upper wall 10A of the housing
10.
[0030] Similarly, the attaching arm 22 has a contact projection 22A
at the left end at a position corresponding to the pressure
projection 21A. A pedestal-shaped fixing portion 22B is provided to
the left of the linking section 23, which is press fitted into a
space of the slit 11 between the island 14 and the bottom wall 10B
of the housing 10.
[0031] The attaching arm 22 has a stopper projection 22C, a concave
indentation 22D, and a connection section 22E to the right of the
linking section 23. The concave indentation 22D has an arc shape
and is situated at a position corresponding to the concave
indentation 21B of the lever arm 21. The connection section 22E has
a lower edge that is slightly lower than the bottom wall 10B of the
housing 10 and, when the connector is mounted on the circuit board,
soldered to the circuit trace.
[0032] The movable member 30 is made of a dielectric material so as
to extend in the first direction in substantially the same range as
the housing 10. It has a plurality of slits 31, an upper
manipulation section 32, and a lower cam section 33. It is made
rotatable between the open position in FIG. 1 and the closed
position in FIG. 3. It is assembled with the housing 10 such that
the slit 31 receives the right section of the lever arm 21 while
the cam portion 33 is abutted on the upper edge of the attaching
arm 22 such that its left portion is adjacent to the stopper
portion 22C and its right portion is over the concave indentation
22D of the attaching arm 22. The major diameter of the cam portion
33 is made greater than the distance between the concave
indentations 21B and 22D of a terminal 20.
[0033] The connector according to the invention is assembled and
used as follows. [0034] (1) The terminals 20 are incorporated in
the housing 20. Each terminal 20 is inserted into the slit 11 from
right to left. The attaching section 22B is press fitted into a
space between the bottom wall 10B and the island 14 while the front
edge of the connection section 22E abuts against the rear end of
the housing 10 so that the terminal 20 is secured at a
predetermined position. [0035] (2) The movable member 30 is
assembled such that it stands uprightly at the open position in
FIG. 1. It is moved to the left such that the rear portion of the
lever arm 21 enters the slit 31 thereof. Consequently, the cam
portion 33 is housed in the concave indentation made between the
stopper portion 22C and the concave indentation 22D. This completes
the assembling of the connector. [0036] (3) In use, the connector
is provided above a predetermined circuit board (not shown). The
connection section 22E is soldered to the corresponding circuit
trace while the housing is attached to the circuit board with
screws or reinforcing fasteners. [0037] (4) A flat cable C or
flexible board is inserted into the cavity 12 and, then, as shown
in FIG. 2, the movable member 30 is rotated in the clockwise
direction. As a result, the cam portion 33 is changed from the
horizontal position in FIG. 1 to the vertical position in FIG. 2,
so that the terminal 20 is pressed upwardly at the shoulder 21D of
the pressure receiving portion to flex upwardly the right side
portion of the lever arm 21 on the right side of the linking
section 23. Consequently, the left side portion of the lever arm 21
is flexed downwardly with the linking section 23 as a fulcrum.
Thus, the flat cable C is pressed downwardly by the pressure
projection 21A of the lever arm 21 so that it is held between the
pressure projection 21A and the contact section 22A of the
attaching arm 22. As a result, the flat cable C is connected
electrically with the terminal through the contact projection 22A
and/or the pressure projection 21A. [0038] (5) The pressure on the
pressure receiving portion of the terminal 20 becomes the highest
where the cam portion 33 abuts against the shoulder 21D made by the
lower straight edge of the lever arm 21 and the concave indentation
21B. [0039] (6) When the movable member 30 is further rotated, as
shown in FIG. 3, the cam portion 33 rests in the concave
indentation 21B past the shoulder 21D. The pressure on the terminal
abruptly drops at the entry side of the concave indentation 21B due
to the sharp slope so that the operator receives a high degree of
clicking sensation. When the cam portion 33 is housed in the
concave indentation 21B, the satisfactory pressure on the flat
cable C is maintained. The cam portion 33 is stable in the concave
indentation 21B so that the movable member 30 will not come off by
an accidental force. The movement to the left is restricted by the
stopper section 22C. [0040] (7) Various modifications may be made
to the invention. For example, as shown in FIG. 4, the concave
indentation 22D is connected to the straight section without making
any shoulder as in FIG. 1. The cam portion 33 is prevented from
coming off to the right by the concave indentation 22D. The bottom
edge 10C of the housing is press fitted into the attaching recess
22F of the connection section 22E to assure the attachment of the
terminal to the housing. Also, this facilitates soldering the
connection section 22E at the predetermined position. When the
terminal 20 is press fitted into the housing 10, the lever arm 21
is guided by the tapered section 10D of the upper wall 10A.
* * * * *